JP2017535182A5 - - Google Patents

Description

[0098] The previous description is provided to enable any person skilled in the art to implement the various aspects described herein. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects. Accordingly, the claims are not intended to be limited to the embodiments shown herein, but are to be accorded the full scope consistent with the language of the claims, where Reference to an element is not intended to mean “one and only one”, but rather to mean “one or more”, unless expressly stated otherwise. Unless otherwise specifically stated, the term “several” refers to one or more. All structural and functional equivalents to the elements of the various embodiments described herein that are known to those skilled in the art or that are later known are expressly incorporated herein by reference, It is intended to be encompassed by the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is expressly recited in the claims. No claim element should be construed as a means plus function unless the element is expressly recited using the phrase “means for”.
The invention described in the scope of claims at the beginning of the filing of the present application will be appended.
[C1]
A method for communicating a scheduling request (SR) in a wireless network, comprising:
Communicating with a network entity using a frame structure that allows dynamic switching of transmission time intervals (TTI) between uplink and downlink communications;
Selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink transmission based at least in part on the frame structure;
Transmitting an SR to the network entity in at least one uplink TTI of the one or more TTIs configured for uplink communication based at least in part on the at least one SR mode;
A method comprising:
[C2]
The method of C1, wherein the TTI corresponds to one or more orthogonal frequency division multiplex symbols.
[C3]
Further comprising receiving a configuration from the network entity identifying one or more SR modes, wherein selecting the at least one SR mode is based on the configuration based on the one or more SR modes. The method of C1, comprising selecting the at least one SR mode from a mode.
[C4]
The method of C1, wherein the at least one SR mode includes an aperiodic SR mode for multiplexing the SR with one or more other transmissions in the at least one uplink TTI.
[C5]
The method of C4, wherein the one or more other transmissions include at least one of a hybrid automatic repeat / request (HARQ) transmission or a channel state information (CSI) transmission in the at least one uplink TTI.
[C6]
The at least one SR mode includes a periodic SR mode for periodically transmitting the SR in a portion of the TTI dedicated as an uplink TTI including the at least one uplink TTI, to C1 The method described.
[C7]
The at least one SR mode is an opportunistic SR mode for transmitting the SR in a portion of the TTI configurable as an uplink TTI or a downlink / uplink TTI, including the at least one uplink TTI The method according to C1, comprising:
[C8]
Further comprising masking previous transmissions of the SR in at least one of the portions of the TTI, wherein the at least one of the portions of the TTI is configured as a downlink TTI; The method according to C7.
[C9]
The method of C1, wherein transmitting the SR is based at least in part on an SR prohibit timer that allows to avoid repeated transmissions of the SR within a period of time.
[C10]
The method of C1, further comprising transmitting a contention-based resource buffer status with the SR in the at least one uplink TTI.
[C11]
The method of C1, wherein the SR corresponds to one of a plurality of component carriers established using the network entity.
[C12]
The CSR of claim 11, further comprising: transmitting another SR to the network entity associated with another one of the plurality of component carriers utilizing another TTI with a longer duration than the TTI. Method.
[C13]
Transmitting the SR to the one of the plurality of component carriers at least partially in one or more latency parameters for data transmitted over the one of the plurality of component carriers. A method according to C11, based on
[C14]
A user equipment for communicating a scheduling request (SR) in a wireless network,
A transceiver,
In the wireless network, at least one processor communicatively coupled to the transceiver via a bus for communicating signals;
A memory communicatively coupled to the at least one processor and / or the transceiver via the bus;
With
Wherein the at least one processor and the memory are:
Communicating with the network entity using a frame structure that enables dynamic switching of transmission time intervals (TTI) between uplink and downlink communications via the transceiver;
Selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink transmission based at least in part on the frame structure;
Via the transceiver, in at least one uplink TTI of the one or more TTIs configured for uplink communication, based at least in part on the at least one SR mode, to the network entity Sending SR and
User equipment that is operable to perform
[C15]
The user equipment according to C14, wherein the TTI corresponds to one or more orthogonal frequency division multiplexing symbols.
[C16]
The at least one processor and the memory receive a configuration from the network entity identifying one or more SR modes, and based on the configuration, from the one or more SR modes, the at least one SR The user equipment of C14, further operable to perform a mode selection.
[C17]
The user equipment of C14, wherein the at least one SR mode includes an aperiodic SR mode for multiplexing the SR with one or more other transmissions in the at least one uplink TTI.
[C18]
The user equipment of C17, wherein the one or more other transmissions include at least one of a hybrid automatic repeat / request (HARQ) transmission or a channel state information (CSI) transmission in the at least one uplink TTI. .
[C19]
The at least one SR mode includes a periodic SR mode for periodically transmitting the SR in a portion of the TTI dedicated as an uplink TTI including the at least one uplink TTI, to C14 User equipment as described.
[C20]
The at least one SR mode is an opportunistic SR mode for transmitting the SR in a portion of the TTI configurable as an uplink TTI or a downlink / uplink TTI, including the at least one uplink TTI The user equipment according to C14, comprising:
[C21]
The at least one processor and the memory are further operable to mask previous transmissions of the SR in at least one of the portions of the TTI, and the at least one of the portions of the TTI. Is the user equipment according to C20, configured as a downlink TTI.
[C22]
The at least one processor and the memory are adapted to transmit the SR based at least in part on an SR prohibit timer that allows to avoid repeated transmission of the SR within a period of time. The user equipment according to C14, which is operable.
[C23]
The user equipment of C14, wherein the at least one processor and the memory are operable to transmit contention based resource buffer status with the SR in the at least one uplink TTI.
[C24]
The SR according to C14, wherein the SR corresponds to one of a plurality of component carriers established using the network entity.
[C25]
The at least one processor and the memory send another SR to the network entity associated with another one of the plurality of component carriers utilizing another TTI with a longer duration than the TTI The user equipment according to C24, wherein the user equipment is configurable.
[C26]
The at least one processor and the memory are based on at least part of one or more latency parameters for data transmitted via the one of the plurality of component carriers. The user equipment of C24, configurable to send the SR to the one of them.
[C27]
A user equipment for communicating a scheduling request (SR) in a wireless network,
A means for communicating with a network entity using a frame structure that enables dynamic switching of transmission time intervals (TTI) between uplink and downlink communications; and based at least in part on said frame structure; Means for selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink transmission;
For transmitting an SR to the network entity in at least one uplink TTI of the one or more TTIs configured for uplink communication based at least in part on the at least one SR mode. Means and
Comprising user equipment.
[C28]
The user equipment according to C27, wherein the TTI corresponds to one or more orthogonal frequency division multiplexing symbols.
[C29]
A computer readable storage medium comprising computer executable code for communicating a scheduling request (SR) in a wireless network, the code comprising:
Code for communicating with a network entity using a frame structure that allows dynamic switching of transmission time interval (TTI) between uplink and downlink communications;
A code for selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink transmission based at least in part on the frame structure; ,
For transmitting an SR to the network entity in at least one uplink TTI of the one or more TTIs configured for uplink communication based at least in part on the at least one SR mode. With code
A computer-readable storage medium comprising:
[C30]
The computer-readable storage medium according to C29, wherein the TTI corresponds to one or more orthogonal frequency division multiplexing symbols.

Claims (15)

A method implemented by a user equipment (UE) for communicating a scheduling request (SR) in a wireless network comprising:
Communicating with a network entity using a frame structure that allows dynamic switching of transmission time intervals (TTI) between uplink and downlink communications;
Selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink communication based at least in part on the frame structure;
Transmitting an SR to the network entity in at least one uplink TTI of the one or more TTIs configured for uplink communication based at least in part on the at least one SR mode; A method comprising:   The method of claim 1, wherein the TTI corresponds to one or more orthogonal frequency division multiplex symbols.   Further comprising receiving a configuration from the network entity identifying one or more SR modes, wherein selecting the at least one SR mode is based on the configuration based on the one or more SR modes. The method of claim 1, comprising selecting the at least one SR mode from a mode.   The method of claim 1, wherein the at least one SR mode includes an aperiodic SR mode for multiplexing the SR with one or more other transmissions in the at least one uplink TTI.   The one or more other transmissions include at least one of a hybrid automatic repeat / request (HARQ) transmission or a channel state information (CSI) transmission in the at least one uplink TTI. Method.   The at least one SR mode includes a periodic SR mode for periodically transmitting the SR in a portion of the TTI dedicated as an uplink TTI that includes the at least one uplink TTI. The method according to 1.   The at least one SR mode is an opportunistic SR mode for transmitting the SR in a portion of the TTI configurable as an uplink TTI or a downlink / uplink TTI, including the at least one uplink TTI The method of claim 1 comprising: Further comprising masking previous transmissions of the SR in at least one of the portions of the TTI, wherein the at least one of the portions of the TTI is configured as a downlink TTI ; Masking the previous transmission of SR refrains from transmitting the SR in the TTI, suspending the SR for transmission in another TTI, and having low or NULL power in the TTI 8. The method of claim 7, comprising one of transmitting the SR .   The method of claim 1, wherein transmitting the SR is based at least in part on an SR prohibit timer that allows to avoid repeated transmission of the SR within a period of time.   The method of claim 1, further comprising transmitting a contention based resource buffer status with the SR in the at least one uplink TTI.   The method of claim 1, wherein the SR corresponds to one of a plurality of component carriers established using the network entity.   12. The method of claim 11, further comprising: transmitting another SR to the network entity associated with another one of the plurality of component carriers utilizing another TTI with a longer duration than the TTI. The method described. Transmitting the SR for the one of the plurality of component carriers, at least one or more latency parameters for data transmitted via the one of the plurality of component carriers The method of claim 11, based in part on. A user equipment for communicating a scheduling request (SR) in a wireless network,
A means for communicating with a network entity using a frame structure that enables dynamic switching of transmission time intervals (TTI) between uplink and downlink communications; and based at least in part on said frame structure; Means for selecting at least one SR mode for SR transmission to the network entity in one or more of the TTIs configured for uplink communication ;
For transmitting an SR to the network entity in at least one uplink TTI of the one or more TTIs configured for uplink communication based at least in part on the at least one SR mode. A user equipment comprising: means. A computer-readable storage medium comprising computer-executable code that, when executed , causes a computer to perform the method of any one of claims 1-13 .